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COLOR ON,COLOR OFF
ALBINO SQUIRREL BY DOMINIQUE BRAUD, DEMBINSKY PHOTO ASSOCIATES
Minnesota Conservation Volunteer
By SUSAN KANEKO BINKLEY
Without thinking about it, we use
color to recognize things in nature.
A male cardinal is red. A deer turns
a bright rust color in summer. A gray squirrel
is, well, gray. That is, unless they have a rare
condition called albinism. Albino animals are
astonishingly all white, sometimes partly
white. And their eyes are deep pink or icy blue.
Maybe you’ve seen a white squirrel in the
wild or a white rabbit or mouse in a pet store.
They stand out among other animals with
normal color, especially the ones that blend
into their surroundings. Though they are very
different on the outside, they differ only in
small ways on the inside.
Their striking appearance has always made
people wonder about albino animals. Some
people believed albinos had special powers and
worshiped them; others believed they were
spooky and feared them.
Today we know that the real wonder and
mystery of albinism lies in the complex
function of pigment, the coloring matter found
in certain cells of living organisms. Pigment is
controlled by genes, inherited from an animal’s
mother and father.
THERE’S MORE TO ALBINISM THAN MEETS THE EYE.
November–December 2001
THE NATURE OF ALBINISM
Siamese cats are albinos too. Soare Himalayan rabbits and mice.In this albino variation, coolerregions of the body produce moremelanin than others, so thatthese animals have darker“points,” that is, a dark face, tail,paws, and ear tips. They havepink or blue eyes, and their visionis affected to varying degrees.
The chipmunk (left) andbison cow (above) areboth albinos. Eventhough they both havecolor in their fur, theyalso have aberrant eyecolor, a key albino clue.
Not all albinos are pure white.Albinism occurs when an animal
inherits either a single trait or set of
traits that interrupt the making of
the pigment melanin. Melanin is the
primary pigment that determines
the color of a mammal’s skin, fur,
and eyes.
Not all albinos are pure white,
because some traits that control
melanin allow forms of the pigment
to appear in the fur of the animal.
TOM AND PAT LEESON
E.R. DEGGINGER, DEMBINSKY PHOTO ASSOCIATES
Minnesota Conservation Volunteer
GREG BREINING
The Albino Squirrels of Olney,Illinois. One town in Illinois is so taken by
albino squirrels that residents have purposely
cultivated a population since 1902. Impaired
vision makes it more difficult for albino animals
to stay out of harm’s way. That’s why the Olney
albino squirrel population—once almost 1,000
and now little more than 200—is pampered with
food from the townspeople and protected by law
from cats, motorists, and squirrel-nappers.
From whales to snails. Albinism probably occurs in
every kind of animal that produces melanin. It has been
observed in mammals, birds, reptiles, amphibians, fish,
mollusks, and insects—just about every species, from
whales to snails. Almost all domestic animals have albino
variants. Think about the mice, rabbits, and guinea pigs we
know as pets and laboratory animals. One researcher says
that albino animals are preferred because they are easier to
work with, perhaps because they have poor eye-
sight. Melanin does not directly affect personality. Studying albinism inamphibians, reptiles,birds, fish, and other non-mammals is complicatedby the presence of severalother visible pigments.Xanthin, a yellow pigment,can be seen in this albinoleopard frog.
An adult barnswallow feedsits albinonestling.
DO
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Not all white animalsare albinos. So how
can you tell if an animal
is really an albino? The
difference is in the eyes.
Melanin affects the
development of an ani-
mal’s eyes and vision.
Without the brown-
black or red-yellow pig-
ments of melanin color-
ing the iris, the eyes of
albino animals appear
pink or light blue.
Many animals are
white, even pure white,
but are not albino. If an animal’s eyes are any color other than pinkish-red or
pale blue, it is not albino. White animals, such as the polar bear, whose eyes are
normal in color and function are called leucistic. Some animals, such as the
snowshoe hare, have a leucistic phase for camouflage during the snowiest time
of the year.
Notice the normalcolor of eyes of thissnowshoe hare. Itis an example of awhite mammal thatis not albino.
BILL MARCHEL
THE COLOR OF MELANIN
MIC
HAE
L SH
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Melanin is an organic pigment—a coloring agent found in nature—that
is critical to producing most of the color seen in mammals. Depending on
how it’s made, melanin comes in two color ranges: (1) eumelanin—dark
browns and blacks; and (2) pheomelanin—light reddish tans and blondes.
These two kinds of melanin provide animals
with cryptic coloration, or camouflage, helping
them to blend into and hide in their
surroundings.
Dark and light melanins, working alone or in
combination, make either plain or multicolored
coats and even multicolored individual hairs, a
variation called agouti.
Pigments in living things not only provide
coloration, but perform other important tasks
as well. For example, in plants the green
pigment chlorophyll makes nourishing sugars.
Melanin performs two tasks in most mammals and other animals.
Scientists are trying to understand these tasks better:
• Protection from sunlight. Melanosomes, or
clusters of melanin, block harmful rays of the sun,
while allowing beneficial ones to enter.
• Vision. Melanin helps develop various parts of the
eyes, including the irises, retinas, eye muscles, and
optic nerves. The absence
of melanin results in
disorganized development
of eyes and leads to
problems with focusing,
depth perception, and
tracking.
TO LEARN MOREABOUT PIGMENTS, see
the Young Naturalists
story on leaf color in the
Sept.–Oct. 2000
Volunteer and the story
on camouflage and
mimicry coloration in the
March–April 2000 issue.
This albino deerhas no melaninat all, even in itsgrowing antlers.
Minnesota Conservation Volunteer
The dark eye spot in mostanimal embryos is causedby melanin, key to visiondevelopment in early stagesof animal life. Shown here isa normal 30-hour-old embryoof a zebrafish, commonlyused in genetic research. ST
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THE MAKING OF AN ALBINO
Melanin is made through a complex chain of chemical reactions that
occur in a specialized cell called a melanocyte. Because it is a complex process,
many factors can alter the production of melanin in a melanocyte. The most
critical factor in the process is the presence of a special enzyme (agent that starts
and speeds up reactions) called tyrosinase: Without it, melanin cannot be
made.
Animals inherit genes from their parents. Mammals have a special gene that
determines the presence of tyrosinase in cells. Geneticists call it the TYR gene. If
an animal is born with an altered or
damaged TYR gene instead of a
normal or whole one, melanin cannot
be reliably made. The animal will
become an albino.
The TYR gene can be altered in many ways. More than 50 ways have been
discovered in humans and 33 in mice. In all-white, light-eyed albino
animals, the TYR gene does not work at all, producing no tyrosinase and no
melanin pigmentation. In other albino
variations, the TYR gene may cause
tyrosinase “leaks” that cause small
amounts of melanin to accumulate as
the albino grows. These albinos will
still have light eyes, but will show some
color on their fur as they become older.
Besides the TYR gene, several other
genes can cause albino variants. That’s
because other hormones and proteins
also are key to complete melanin
production, and their presence is
determined by their own special genes.
In mice, a total of 100 genes are known to affect albinism.
All the genetic traits for albinism are recessive traits, meaning that their
power remains hidden when paired with stronger traits. For the recessive
albino trait to appear in an animal, the baby animal must inherit a recessive
gene from both parents.
HUMAN ALBINISM has been
studied a lot more than animal
albinism. Much of this research
has been conducted at the Uni-
versity of Minnesota International
Albinism Center. In Minnesota,
one in 20,000 people has
albinism. One in 200 people
carries the recessive gene for it.
HOW MANY ALBINO OFFSPRING can be made by two parents who each carry the recessive
albino gene but are not albino themselves? Since genes come in pairs, each parent can be
represented by a pair of letters. Let the uppercase letter A represent the dominant or usual form of
the gene, and let the lowercase letter a represent the unusual, recessive type of this gene that could
cause a form of albinism. Now let’s make a box called a Punnett square to help us do the math.
An offspring from two parents with the
recessive albino gene has a 1 in 4 chance of
being born albino. Since this recessive gene is
rare in the first place, rarer still is the chance of
both parents having it. That’s why albinos in
the wild and among humans are so rare.
A a
A
a
Aa
aa
AA
Aa
Aa x Aa= ?
ALBINO DOE BY TOM AND PAT LEESON
Susan Kaneko Binkley is art director
of Minnesota Conservation
Volunteer and lives with two albino
cats, Ping and Pong.
To live and flourish in the wild, animals must be able to find food and avoid
becoming food themselves. They must also find mates for making offspring.
Do albino animals, with their poor eyesight, have trouble finding food or
seeing danger? Does their sense of smell or hearing make up for their impaired
vision? With their light coloration, will they be more likely to be seen and eaten
by predators? With their unusual appearance, will they be accepted by potential
mates? Little research has been done to answer these questions.
Scientists have explored how an albino’s white coat or missing camouflage
affects them as prey. Sometimes albinos are noticed and captured more easily
than normal animals. But in other instances, predators didn’t seem to recognize
them as food. (Would you recognize white hamburgers as good to eat?) In
studies where animals had many places to hide, predators captured albino and
normally colored animals at the same rate. Coat color did not make a difference.
Several studies of birds, including
ravens, barn swallows, red-winged
blackbirds, and penguins, have
demonstrated that albino birds
have trouble winning a mate.
Albino birds were consistently
rejected, perhaps because they
lacked the characteristics, such as
feather color and pattern, that
potential mates rely on to make
choices.
The curiosity of a scientist. Ifalbino animals make you wonder,
follow the trails that lead into the
world of science. From the how and
why of color, to the study of genes,
to views of social behavior, science
offers a powerful way to explore,
understand, and organize the
mysteries at work in our astonishing
natural world. nV
Hunting Albino Animals. Some
people believe hunting albino animals
should be off-limits. In fact, 13 states have
made it illegal to do so. In Minnesota it is
legal to hunt albino animals, although the
hunting of white bears, albino or leucistic,
is outlawed. Is it unsporting to hunt an
animal that may be easier to find? Should
we make a law to prevent hunting albino
animals? Or should we continue to allow
hunters to decide for themselves?
CHALLENGES OF SURVIVAL
Minnesota Conservation Volunteer
An albino skunk is easy tosee but, like other skunks,has a potent weapon—thestinky liquid in its scentglands. Will its enemiesrecognize an all-whiteanimal as a skunk?
MAR
Y CL
AY, D
EMBI
NSK
Y PH
OTO
ASS
OCI
ATES
SHAWN PERICH
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